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6.
A Cooperative Game of
Invention and Communication
• A fruitful way to think about software
development.
• Games used by mathematicians and
corporate strategiests.
• Kinds of games: zero-sum, positional,
competitive, cooperative, finite, …

7.
Software Development
• Group game
• Non-zero-sum: multiple winners and losers.
• Better not viewed as a positional game:
state is recorded.
• Cooperative
• Goal-seeking
• Finite

8.
Infinite Games
• Infinite games: organizations, corporations
and countries, a person’s profession.
• Do well in one game to be well positioned
for the next one.

9.
Software and Rock Climbing
• Best comparison partner
• Cooperative and goal seeking
– How well they climbed together
– How much they enjoyed themselves
– Reach the top?
• Load bearing
– Climbers must support their weight. Software
must run.

12.
A Game of Invention and
Communication
• Software development: group game which
is goal seeking, finite and cooperative
• Team: sponsor, manager, usage specialists,
designers, testers and writers
• Next game: maintenance, build an entirely
different system

13.
Cooperative Game of Invention
and Communication
• Measure of quality as a team: how well they
cooperate and communicate during game.
• What are the moves of the game:
– There is nothing in the game but people’s ideas
and the communication of those ideas to their
colleages (including the sponsor) and to the
computer.

14.
Emotions, wishes and thoughts
• The task facing the developers:
– They are working on a problem they don’t fully
understand and that lives in emotions, wishes and
thoughts and that changes as they proceed.
– They need to understand.
• Problem space.
• Imagine some mechanism in a viable technology space.
• Express in an executable language which lacks many features
of expression to a system that is unforgiving of mistakes.

15.
What is
software development?
• Software Development is a resourcelimited) cooperative game of invention and
communication.
– The primary goal of the game is to deliver
useful, working software.
– The secondary goal of the game is to set up for
the next game. The next game may be to alter
or replace the system or to create a neighboring
system.
Not many people have articulated this before

16.
Software and Engineering
• Considering software
development as a game with
moves is profitable.
– Gives us a way to make meaningful
decisions on a project.
• In contrast: speaking of software
development as engineering or
model building does not help.

17.
Engineering
• People mostly use engineering to create a
sense of guilt for not having done enough of
something, without being clear of what that
something is.
• Dictionary: The application of science and
mathematics by which the properties of
matter and the sources of energy in nature
are made useful to man (Webster’s Dic.).

18.
What is “doing engineering”
• In my experience: involves creating a tradeoff solution in the face of conflicting
demands.
• Also applies to software development.

19.
Confusing act and outcome
• Outcome: The factory, which is run while
specific people watch carefully for
variations in quantity and quality of the
items being manufactured.
• Act: ill-defined creative process the
industrial engineer goes through to invent
the manufacturing plant.

20.
More like Engineering?
• When people say: “Make software
development more like engineering” they
often mean, “Make it more like running a
plant, with statistical quality control”.
• But: running the plant is not the act of doing
engineering.

21.
Look up previous solutions
• The other part of “doing engineering”
• Civil engineers are not supposed to invent
new structures.
– Take soil samples and use the code books to
look for the simplest structure that handles the
required load over the given distance building
on the soil at hand.
– Centuries of tabulation of known solutions

22.
Fits marginally
• This only fits marginally the current state of
software development
• We are still in the stage where there is
competition between designs.
• Technologies are changing fast that few
code books exist
• Today there are more variations between
systems than there are commonalities.

23.
Return
• Return to consider engineering as thinking
and making trade-offs.

25.
Interesting part not in models
• If software development were model
building, then the valid measure of the
quality of the software or of the
development process would be the quality
of the models (fidelity, completeness)

26.
But successful project teams say
• The interesting part of what we want to
express doesn’t get captured in those
models. The interesting part is what we say
to each other while drawing on the board.
• We don’t have time to create fancy or
complete models
• Paying attention to the models interfered
with developing the software

27.
Sufficiency
• The work products of the team should be
measured for sufficiency with respect to
communicating with the target group.
• It does not matter if incomplete, incorrect
syntax, … if they communicate sufficiently
to the recipients.

28.
Modeling as team
communication
• Can be too much or too little.
• How much modeling to do? Subject of this
book.

29.
What is
software development?
• Software Development is a resourcelimited) cooperative game of invention and
communication.
– The primary goal of the game is to deliver
useful, working software.
– The secondary goal of the game is to set up for
the next game. The next game may be to alter
or replace the system or to create a neighboring
system.
Not many people have articulated this before

30.
Programmers as
Communications Specialists
• Game of communication: different light on
programmers …
• Stereotyped as noncommunicative individuals
who like to sit in darkened rooms
• High acceptance of programming in pairs …
Programmers thought they would not like it but
they like it! (Extreme Programming)

31.
Game of invention
• So far not as a game of communication
• Interest of programmers to discuss
programming matters gets in the way of
them discussing business matters with
sponsors, users and business experts.

32.
Universities
• Can reverse the general characteristics by
creating software development curricula
that contain more communication-intensive
courses
• Attracts different students (University of
Aalborg, Denmark).

33.
Gaming Faster
• We should not expect orders of magnitude
improvement in program production.
• As much as programming languages may
improve, programminvg will still be limited
by our ability to think through the problem
and the solution.

35.
Diminishing Returns
• Because a software development project is
resource limited, spending extra to make an
intermediate work product better than it
needs to be for its purpose is wasteful.
• Work products of every sort are sufficien

37.
What goes on in software
development? Intro.
• Most accurate account
• Quality is related to the match between the
theory of the problem and the theory of the
solution.
• The designer’s job is not to pass along the
design but the theories that drive the design.

38.
What is programming
• Should be regarded as an activity by which
the programmers form or achieve a certain
kind of insight, a theory, of the matters at
hand.
• Not as a production of a program and other
texts.

39.
Programming and the
Programmer’s Knowledge
• Programming = the whole activity of design and
implementation
• Programming = building up knowledge
• What kind of knowledge?
• A theory: a person who has or posses a theory
knows how to do certain things and can support
the actual doing with explanations, justifications
and answers to queries.

40.
Theory transcends documentation
in at least 3 essential ways
• How are affairs of the world mapped into the
program text? For any aspect of the world the
programmer can state its manner of mapping into
the program text. [AOSD]
• Can support the program text with some
justification.
• Is able to respond constructively to any demand
for a modification. Similarity of new demand to
similarities already in the system.

41.
Problems and Costs of Program
Modifications
• Cost savings by modifying existing
program rather starting from scratch.
• Cheaper? Not supported by other
complicated man-made constructions:
bridges, buildings, etc. Often demolish and
rebuild is most economical.
• Program modification is just text editing?